• Title/Summary/Keyword: natural gas engine

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Development of Conversion Technology of a Decrepit Diesel Vehicle to the Dedicated Natural Gas Vehicle (노후 디젤차량으로부터 전소 천연가스자동차로의 개조 기술 개발)

  • Ryu, Kyung-Hyun;Kim, Bong-Kyu
    • Transactions of the Korean Society of Automotive Engineers
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    • v.14 no.6
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    • pp.73-81
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    • 2006
  • A commercial diesel engine was converted into a dedicated natural gas engine to reduce the exhaust emissions in a retrofit of a diesel-fueled vehicle. The cylinder head and piston were remodeled into engine parts suited for a spark ignition engine using natural gas. The remodeling of the combustion chamber changed the compression ratio from 21.5 to 10.5. A multi-point port injection(MPI) system for a dedicated natural gas engine was also adopted to increase the engine power and torque through improved volumetric efficiency, to allow a rapid engine response to changes in throttle position, and to control the precise equivalence ratio during cold-start and engine warm-up. The performance and exhaust emissions of the retrofitted natural gas engine after remodeling a diesel engine are investigated. The emissions of the retrofitted natural gas engine were low enough to satisfy the limits for a transitional low emission vehicle(TLEV) in Korea. We concluded that a diesel engine can be effectively converted into a dedicated natural gas engine without any deterioration in engine performance or exhaust emissions.

Experimental Study on Comparison of Flame Propagation Velocity for the Performance Improvement of Natural Gas Engine

  • Chung Jin Do;Jeong Dong Soo
    • Journal of Environmental Science International
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    • v.14 no.1
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    • pp.15-22
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    • 2005
  • Natural gas possesses several characteristics that make it desirable as an engine fuel; 1)lower production cost, 2)abundant commodity and 3)cleaner energy source than gasoline. Due to the physics characteristics of natural gas, the volumetric efficiency and flame speed of a natural gas engine are lower than those of a gasoline engine, which results in a power loss of $10-20{\%}$ when compared to a normal gasoline engine. This paper describes the results of a research to improve the performance of a natural gas engine through the modification and controls of compression ratio, air/fuel ratio, spark advance and supercharging and method of measuring flame propagation velocity. It emphasizes how to improve the power characteristics of a natural gas engine. Combustion characteristics are also studied using an ion probe. The ion probe is applied to measure flame speed of gasoline and methane fuels to confirm the performance improvement of natural gas engine combustion characteristics.

A Study of on a Natural Gas Engine Modeling for Mixture formation and Intake Process (혼합기 형성-유입과정을 고려한 천연가스엔진 모델링 연구)

  • Sim, Han-Sub
    • Journal of the Korean Society of Manufacturing Process Engineers
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    • v.8 no.3
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    • pp.13-20
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    • 2009
  • Development of a dynamic engine model is essential to predict and analyze of dynamic characteristics from a natural gas engine. Reducing the harmful exhaust emissions can be accomplished by a precise air-fuel ratio control. In this paper, the dynamic engine model was proposed and included mixture formation and intake process because the dynamic characteristics can be affected by the mixture components such as an air and a gaseous fuel. The air mass flow, the partial pressure ratio, and the gas constant are changed by variations of the components in the mixture formation and intake process. The dynamic engine model is applied to the natural gas engine for validation test. Experimental results show that the dynamic engine model is effective to predict the dynamic characteristics of the natural gas engine.

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A study on performance improvement of natural gas fueled engine (천연가스 기관의 성능 향상에 관한 연구)

  • 정동수;정진도;서승우;최교남
    • Transactions of the Korean Society of Mechanical Engineers
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    • v.16 no.1
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    • pp.175-179
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    • 1992
  • Generally speaking, natural gas possesses several characteristics that make it desirable as an engine fuel : for example (1) lower production cost, (2) abundant commodity and (3) cleaner energy source than gasoline. Due to the physical characteristics of natural gas, the volumetric efficiency and flame speed of a natural gas engine are lower than those of a gasoline engine, which results in a power loss of 10-20% when compared to a convensional gasoline engine. This paper describes the results of a research to improve the performance of a natural gas engine through the modification and controls of air/fuel ratio, spark timing advance and supercharging effect by forced air supply method.

A Study on the Improvement of In-Cylinder Flow Motion in the Natural Gas Engine (천연가스엔진의 실린더내 흡기유동개선에 관한 연구)

  • Seo, Seung-U;Jeong, Dong-Su;O, Seung-Muk;Choe, Gyo-Nam
    • 연구논문집
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    • s.23
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    • pp.121-126
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    • 1993
  • In general, natural gas engine converted from gasoline engine has disadvantage of power decrease. In order to increase power output in natural gas engine, the improvement of in-cylinder flow motion has been believed as the most effective method. In this study, the geometry of combustion chamber in 4 valve DOHC natural gas engine is modified, and in-cylinder flow patterns are analyized. Also engine performance is evaluated according to the modification of in-cylinder flow motion.

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A Study on the Characteristics of Dual Fuel Engine Fueled by Natural Gas and Diesel (천연가스-경유 혼소엔진의 특성연구)

  • Kim, Changup;Oh, Seungmook
    • Journal of the Korean Institute of Gas
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    • v.17 no.6
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    • pp.20-26
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    • 2013
  • In this study, based on a 12L class diesel engine, a natural gas-diesel dual fuel engine was developed by adding natural gas fuel supply system. For optimal control of dual fuel engine, a conventional diesel engine ECU and a dual fuel ECU were utilized. To convert the dual fuel engine, MPI natural gas injectors were installed on the new modified intake manifold adapter. As a results, the dual fuel engine showed same level of torque, power performance and exhaust gas emissions as those of a diesel base engine.. Furthermore, overall fuel replacement rate was 70~76 % and total fuel cost saving was 37~40%.

Flow Control of a Solenoid Gas Injector and Its Application on a Natural Gas Engine (솔레노이드 가스 인젝터의 유량제어와 천연가스엔진에서의 응용)

  • Sim, Han-Sub
    • Journal of the Korean Society of Manufacturing Process Engineers
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    • v.8 no.2
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    • pp.83-89
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    • 2009
  • An air-fuel ratio control is essential in reducing hazardous exhaust emissions from a compressed natural gas(CNG) engine, and can be accomplished by accurate control of gas injection flow. In this study, theoretical research was conducted on injection characteristics of a solenoid gas injector, and injection experiments for calibration and analysis were performed. Various factors for gas injection flow such as injection pressure, gas temperature, and supply voltage are studied. A dynamic flow equation of the natural gas was proposed on the basis of flow dynamics theories and results of the injection experiment. The verification of the dynamic flow equation of the solenoid injector was carried out with a large CNG-engine applied to an urban bus. Air-fuel ratio control experiments were conducted in both steady and transient state. Results of injection experiments for the solenoid injector and the CNG-engine was proved the control method proposed herein to be effective.

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A Study on the Combustion Performance by the Improvement of In Cylinder Flow Motion in the Natural Gas Engine (실린더내 흡기유동개선이 천연가스엔진의 연소성능에 미치는 영향 연구)

  • Jeong, D.S.;Suh, S.W.;Oh, S.M.;Uhm, J.H.;Chang, Y.J.
    • Transactions of the Korean Society of Automotive Engineers
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    • v.3 no.3
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    • pp.90-96
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    • 1995
  • In general, natural gas engine converted from gasoline engine has disadvantage of power decrease. In order to increase power output in natural gas engine, the improvement of in-cylinder flow motion has been believed as the most effective method. In this study, the geometry of combustion chamber in 4 valve DOHC natural gas engine is modified, and in-cylinder flow patterns is analyized. Also engine performance is evaluated according to the modification of in-cylinder flow motion.

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Simulation of Natural Gas Injected Dual-Fuel DI 2-Stroke Diesel Engine (천연가스를 파이럿오일과 이원공급하는 직접분사식 2행정 디이젤기관의 시뮬레이션)

  • Choi, In Su
    • Transactions of the Korean Society of Automotive Engineers
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    • v.3 no.3
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    • pp.9-18
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    • 1995
  • The substitution of conventional fuel oil by alternative fuels is of immense interest due to liquid oil shortage and requirements of emission control standard. Among the alternative fuels, natural gas may be the most rational fuel, because of its widespread resource and clean est burning. Meanwhile, engine simulation is of great importance in engine development. Hence a zero-dimensional combustion model was developed for dual-fuel system. Natural gas was injected directly into the cylinder and small amount of distillate was used to provide the ignition kernel for natural gas burning. The intake air and exhaust gas flow was modeled by filling and emptying method. Although the single zone approach has an inherent limitation, the model showed promise as a predictive tool for engine performance. Its simulation was also made to see how the engine performance was influenced by the fuel injection timings and amount of each fuel.

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Effects of the Amount of Natural Gas in Fuel Blends on the Exhaust Gas of the Diesel Engines (혼합연료의 천연가스량이 디젤기관의 배기가스에 미치는 영향)

  • 박명호;김성준
    • Transactions of the Korean Society of Automotive Engineers
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    • v.5 no.5
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    • pp.67-72
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    • 1997
  • The purpose of this study os to investigate how the natural gas in fuel blend influences the polutant emission of diesel engine. Four stroke cycle single cylinder engine is used for this experiment and four kind of fuel blends were made. Fuel blends show four different torque ratios between diesel oil and natural gas, which are 4 : 0. 3 : 1, 2 : 2 and 1 : 3. The constituents of exhaust gases of engine are analyzed for every fuel blend. The experimental results say that the mixing of natural gas into diesel fuel is an very effective way to reduce the amount of soot in the exhaust gas.

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